Collateralized lending using a central counterparty

ABSTRACT

A lending machine can include a communications device to receive a first request relating to a first loan transaction. The first loan transaction can include a long or a short Special Repo Futures (SRF) contract where a supply of the asset is below a supply threshold, otherwise the first loan transaction can include a long or a short General Repo Futures (GRF) contract. The communications device can also be configured to receive a second request for a second loan transaction at least partially counter to the first loan transaction. The lending machine can also include a matching device configured to match the first request with the second request. The lending machine can also include a trader device configured to perform a transaction corresponding to the first and the second request.

BACKGROUND

Repo transactions require borrowers to sell securities (loan collateral)to lenders for cash today, with the understanding that the transactionis reversed on a specified end date. Repo transactions are oftenconducted on an overnight basis. “Term repo” transactions are held for aspecific term, e.g., 1-week, 2-weeks, 1 month, etc. Borrowers are saidto enter a repo transaction or “repoed out” the securities; lendersconduct “reverse repo” transactions. Repo trades are oftencollateralized by U.S. Treasury securities but may be secured by othermutually agreed collateral. Usually the collateral is wired vs. cash tothe lender but is sometimes held per a 3rd party custody arrangement. Atleast $5 trillion (USD) is repoed annually in the U.S. with perhapsanother £6.4 trillion (EUR) in Europe. Repo transactions are bilateraltransactions between two parties which requires an assumption of creditrisk by one party with respect to the other. The reliance on theacceptance of counterparty credit risks makes repo transactionsvulnerable when credit is scarce. Under such economic conditions,mechanisms which mitigate risk and provide security may be needed tofacilitate and encourage lending transactions.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a schematic representation of box spread transaction.

FIG. 2 shows a block diagram depicting exemplary operation of thedisclosed embodiments with respect to GRF contracts.

FIG. 3 shows a table of exemplary GRF terms according to one embodiment.

FIG. 4 shows a block diagram depicting exemplary operation of thedisclosed embodiments with respect to SRF contracts.

FIG. 5 shows exemplary terms for SRF contracts as compared with GRFcontracts.

FIG. 6 shows a block diagram of a system 600 according to oneembodiment.

FIG. 7 shows a flow chart detailing exemplary operation of the exchangeshown in FIG. 6.

DETAILED DESCRIPTION

The disclosed embodiments relate to a collateralized lending system andmethod using a central counterparty. A lending entity/lender may placeorders to enter into long contracts with an intermediary, i.e. a centralcounterparty, obligating them to lend an asset, or portion thereof, suchas cash or a particular security. Borrowing entities/borrowers may placeorders to enter into short contracts with the intermediary obligatingthem to borrow an asset or a substantial equivalent thereof, such ascash or a particular security. The intermediary may then match andsettle appropriate orders. The net effect acts like a lendingtransaction between the lending entity and the borrowing entity but withthe risk of default by the borrowing entity undertaken by theintermediary rather than the lending entity. The contracts, referred tobelow as a “General Repo Futures” (“GRF”) and “Special Repo Futures”(“SU”), may be characterized at least by the value, type or amount of anasset to be lent/borrowed, the interest rate, the delivery/settlementdate, i.e. when the loan begins, the term of the loan, or combinationsthereof. The asset may be cash or one or more particular securities,such as Treasury securities. The intermediary anonymously matchescounter-orders from one or more borrowing entities and one or morelending entities and facilitates, at the settlement/delivery date, thelending transaction by novating itself into the matched transactionbetween the borrowing entity(s) and the lending entity(s), i.e. thelending entity(s) tenders the asset, or portion thereof, to theintermediary, such as to a clearing entity operated by the intermediary,and the intermediary/clearing entity loans/delivers the asset, orportion thereof, or a substantial equivalent, to the borrowingentity(s). In one embodiment, the intermediary/clearing entity maycollect collateral from the borrowing entity(s) in exchange for theloan, the amount required varying based on the value of the loan and/orthe nature of the collateral. The intermediary may then administer theloan upon delivery until it expires. Upon expiration of the loan, theintermediary/clearing entity facilitates redemption of the loan, e.g.repayment by the borrowing entity(s) to the central counterparty, andreturn of the collateral, and repayment by the central counterparty tothe lending entity(s), as well as collection and payment of interest,fees, etc. As a result of the novation, the transactions between thecentral counterparty and the lending entity(s) and borrowing entity(s)are independent and guaranteed. Thereby, the ability to borrow issimplified and the risk of loss due to borrower default and/ormanagement of the collateral is absorbed by the central counterparty,encouraging borrowing activity by prospective borrowers and lendingactivity by prospective lenders, resulting in increased creditavailability. Other features of the disclosed embodiments will bedescribed below.

In contrast to GRF's, which will be described in more detail below,market participants, given the myriad of expirations and strike listingsavailable from which to choose in an options market, can often utilizeindex option products to engineer very interesting financial solutions.One possibility is to use Index Option Box Spreads to simulatecollateralized lending and borrowing.

An option box spread consists of four individual option positions, or“legs.” Using the CME Group European-style End-of-Month (EOM) options onS&P 500 futures as an example, one can consider the followingcombination, with all options expiring at the end of September 2008:

Long Short Call Struck at 500 Put Struck at 500 Put Struck at 2500 CallStruck at 2500

As can be seen, if the present time is early August 2008, the two longoptions positions are “deep in the money,” whereas the two shortpositions are deep out of the money. “Deep in the money” refers to acall option whose exercise (strike) price is considerably below theunderlying security's current market price, i.e. that the option wouldbe exercised at the expiration with high probability. With regards to aput option, “deep in the money” indicates that the exercise price iswell above the underlying security's current market price. Moreinterestingly, regardless of the price of the underlying futures at theexpiration of these options, this combination will always generate apayout of 2,000 index points, or $500,000, i.e. with the twoEuropean-style options struck at 500, the owner of the optionscombination will acquire a futures position at the price of 500 at theexpiration. Likewise, with the two options struck at 2,500, the owner ofthe combination will dispose of a futures positions at the price of2,500. The two opposing futures positions will net 2,000 index points,regardless of the price of the underlying futures at that point. Assuch, the box spread behaves like a discount instrument, with thepremium priced at the net present value of the 2,000-point payoff.Effectively, the trade is equivalent to lending out $500,000 for theperiod corresponding to the remaining life of the options contracts.

A close inspection of the credit relationship suggests that this tradeis roughly equivalent to a term “repo” transaction in the money market,in which a third party is acting as the custodian of the collateral.Repo transactions, as described above, require borrowers to sellsecurities (loan collateral) to lenders for cash today, with theunderstanding that the transaction is reversed on a specified end date.Repo transactions are often conducted on an overnight basis. “Term repo”transactions are held for a specific term, e.g., 1-week, 2-weeks, 1month, etc. Borrowers are said to enter a repo transaction or “repoedout” the securities; lenders conduct “reverse repo” transactions. Repotrades are often collateralized by U.S. Treasury securities but may besecured by other mutually agreed collateral. Usually the collateral iswired vs. cash to the lender but is sometimes held per a 3rd partycustody arrangement. At least $5 trillion (USD) is repoed annually inthe U.S. with perhaps another £6.4 trillion (EUR) in Europe.

The buyer of the options combo pays the premium in cash, and willreceive the fixed payout at the expiration. Effectively, the buyer lendsthe money for the balance of the option's life. The seller of theoptions combo takes in cash premium, and will repay the fixed payout atthe expiration. Effectively, the seller borrows the money. Thedifferential between the repayment and the upftont options premium isthe interest payment.

The clearing house of the exchange, such as the Chicago MercantileExchange (“CME”), performs a very important function in this trade. Fromthe perspective of the buyer or lender, it guarantees the performance ofthe borrower/seller. CMB Clearing demanding and holding a suitableamount of collateral from the seller or borrower makes this guaranteepossible.

Since the repayment is a fixed amount and is not subject to market risk,the collateral requirement for the borrower will amount to the value ofthe loan. Strictly speaking, the precise level of collateral requirementwill change slightly given normal changes in the options mark-to-marketprices. Since the combination is nothing more than a fixed rate loan,the mark-to-market value of the options combination will not fluctuatesignificantly in relation to the principal. The borrower can post liquidsecurities at CME Clearing, subject to the “haircut schedule” in effect.As such, the borrower will slightly over-collateralize the loan. This isvery similar to a repo transaction, in which the borrower transferssecurities to the lender at a slightly over-collateralized level toensure performance.

In an options box trade, however, the collateral will reside at CMEClearing instead of being passed to the lender it is as if the lenderhas a claim on the clearing house. This claim can be used for marginoffset purposes for the lenders' other options and futures positions atCME Clearing. Schematically, the credit relation slip resembles thearrangement shown in FIG. 1.

Box spreads enjoy several advantages over the traditional term repo:

-   -   Net Margin Requirement: From the borrower's perspective, the        performance bond requirement is a single number that encompasses        the requirements for all positions held at CME Clearing. A        margin surplus in the rest of the portfolio can be applied to        the collateralized borrowing using box spreads. Conversely, the        lender will enjoy the margin offset afforded by the long box        spreads position to fulfill performance bond requirements for        the rest of his/her positions in futures and options;    -   Substitution of Collateral: The borrower may desire to        substitute collateral underlying a repo transaction. If it were        an unintermediated repo, the lender would have to be involved in        the substitution—wiring out the old collateral and receiving the        new collateral, and so on. In the case of these box spreads, the        lender is literally facing CME Clearing, leaving the duty of        interfacing with the borrower to the clearing house. Therefore,        when the borrower decides to substitute collateral, the lender        will not be involved; and    -   Clean Close-Out Trades: Novation of these option boxes to CME        Clearing allows for clean close-out trades. If either the lender        or borrower wishes to close out the collateralized lending or        borrowing early, they only need to sell or buy back the options        boxes in the market. The novation process will net the existing        positions with the closing trade. Of course, the close-out trade        will be done at the current market rates. To the extent the box        spreads behave like any other discount instruments, principal        losses are possible. Again, the original counterparty would not        be involved.

Borrowers and lenders may enjoy net margin benefits as well ascounterparty efficiency working with CME Clearing in this arrangement.

As index option box spreads are no more complicated than discountinstruments, pricing the net premium of the spreads is straightforward.Assuming that it is desirable to express the implicit interest rateusing the ACT/360-day count convention, the following equation must besatisfied:

P×(1÷r·(#days/36000))=StrikeDiff

where P denotes the options premium, expressed in index points, rdenotes the implicit interest rate, StrikeDiff denotes the differencebetween the two strike prices in the box spread, and #days denotes theremaining life of the options.

On any given day, and for any particular box spread combination, only Pand r are unknown in the equation above. Thus, the equation provides amapping from P to r, and vice versa. For example, with the two strikes2,000 index points apart, and with 90 days left to expiration, a premiumof 1990.25 would imply a rate of 1.96 percent per annum.

As with any discount instrument, an increase in price is equivalent to adrop in the interest rate. In listed options trading, the prices need toconform to the minimum price variation convention. For example, S&P 500options trade in increments of 0.05 index points. Strictly speaking, thepremium of an S&P Option ticks in 0.05 only if the premium is below fiveindex points. However, there are two deep out-of the-money options ineach of the box spread, making the net premium eligible for 0.05increments. This minimum price variation will also dictate the minimumprice fluctuation in the equivalent rate quotes.

An approximate relationship between the minimum variation in premium andthe corresponding rate difference is as follows:

Change in Rate≈−(Change in Premium/StrikeDiff)×(36000/#days)

A more exact relationship can be shown to be:

∂r≈−(1−r·frac) ²×(∂P/StrikeDiff)×(1/frac)

where frac denotes the day count fraction. At a low interest rateenvironment, and for a short maturity, the leading term on the right isapproximately 1.

Given a strike differential of 2,000 index points, and the optionsexpiring in 90 days, each 0.05 increase in the premium is equivalent toa 0.01 percent, or 1 basis point, decrease in rates (per annum). Twoobservations can be made regarding this equation:

-   -   large difference between the two strike prices will have two        effects: (i) making the notional value per box larger, and (ii)        forcing the minimum allowable variation in rates smaller, i.e.,        the boxes can be quoted in tighter increments in rate term; and    -   As the expiration of the options draw closer, the minimum        variation in terms of the implicit rate will become bigger,        since the minimum variation in premium remains at 0.05.        As such, boxes are typically attempted with a large strike        differential.

Since box spreads are nothing more than regular option trades, the cashflow timing conforms to regular trade processing schedule as well.Following the daily settlement of the trades, CME Clearing will issuethe net cash variation pay and collect totals to the clearing firm,including the cash options premium. The cash variation shall be paid orreceived by the firm on the next business day on behalf of its customer.

Likewise, at the expiration of the options, CME Clearing will performthe necessary options exercise and assignment, followed by themark-to-market settlement of the resulting futures positions. The netcash variation will then be relayed to the clearing firms, and will bepaid on the following business day.

Assuming that the clearing firms make available the cash paid and deductthe cash used on the same day they make and receive payment on behalf ofthe customers, the cash movement would behave as if they were on a T+1basis, both on the inception as well as on the maturity. This cash flowtiming departs from the usual practice in the repo market, in which thecash flow occurs on the T+0 basis. Market participants may want to takethe cash flow convention into consideration when pricing the trade.

It is worth noting that this trade should only be attempted withEuropean-style options, i.e., options that cannot be exercised prior tothe expiration. If attempted with American-style options, the full facevalue of the loan can be called back by exercising the options early(or, for that matter, immediately after the trade).

Within the family of options available at CME Group on the S&P 500 Indexproduct, the End-of-Month (EOM) series of options are European-styleoptions and are regularly listed with expirations out to six calendarmonths.

Beyond the regularly listed EOM options, European-style Flex options onS&P 500 Index futures, or any other regular-sized index futures, arealso available. Since Flex options can be specified to expire on anygiven day, tailor-made financing solutions can be engineered.

Unfortunately, box spreads may not be the optimal implementation of arepo-type transaction having lower counterparty risk. In particular, boxspreads are quoted in terms of the net option premium paid or receivedby buying or selling the components of the box option spreadrespectively. While an interest rate may be imputed, quoting based oninterest rates would more accurately reflect the nature of thetransaction and provide more utility. Further, the nature of theunderlying transactions of the box spread limits precision over whichthe parties can control the interest rate. In addition, a box spreadentails four separate transactions increasing the complexity and costsand fees which are typically charged on a per-transaction basis at thetime of the transaction. The term of the delivered loan implemented by abox spread is also limited to terms offered by willing counterpartiesand, as such, requires a party to go hunting for a willing counterpartyto the trade. Terms applicable to options are not necessarily asconvenient as terms desired by borrowers. Further, box spreads may onlyimplement a repo-type transaction for the lending/borrowing of cash,effectively undertaken at the time the options are purchased, but areincapable of conveying a particular piece of collateral, such as aTreasury note or bond, agency security, mortgage backed security (“MBS”)or an equity, or establishing a forward type arrangement wherein thesettlement/delivery of the loan occurs a date subsequent to thetransaction date.

In contrast to utilizing box spreads of equity index options, thedisclosed embodiments relate to an General Collateralized LendingFacility (“General CLF”) contract and Special Collateralized LendingFacility (“Special CLF”) contract, also referred to as “General RepoFutures” (“GRF”) contract and “Special Repo Futures” (“SRF”) contracts,representing a transparent, secured, market-driven lending facility.Similar to Option Box Spreads, they leverage the collateral managementfacilities of an exchange clearing house (“CH”), such as the CMF. CH,and provide an alternative to traditional repurchase agreement (repo)lending markets.

GRF's may provide an alternative lending facility to repo transactions,denominated, for example, in either US dollars ($ or USD) or Euros (£ orEUR). In one embodiment, as shown in FIG. 2, a GRF contract calls forthe delivery of a 3rd party custodian repurchase (repo) agreement upondelivery, administered by the CH, which leverages the CH's collateralmanagement capabilities, providing a secure alternative to traditionalrepo markets. GRE contracts may be based upon an invariable notionalvalue (NV) upon origination of, for example, ($/£)100,000 or such otherfixed amount as may be determined by the Exchange. Upon purchase, longs(lenders) pay ($/£)100,000 or tender another asset, or portion thereof,as will described. This cash/asset, or a substantial equivalent thereof,is passed through the CE to the account of shorts (borrowers). Shortsmay be required to post collateral equivalent in value to loaned value,such as the ($/£)100,000, in a form specified by the CH, as opposed tothe lending party, such as Treasuries and other forms of collateral,sometimes subject to a haircut, which are considered good or generalcollateral. Cash and collateral may then be returned and interest may bepaid from short to long on a specified end date. Thus, the delivery of aGRF contract may resemble a tri-party repo agreement but without the 3rdparty custody arrangements which characterizes such an agreement. Insummary, GRE contracts allow participants to lock-in short-term loanrates, enjoying the financial surety of the CH instead of acceptingcounterparty credit risks. FIG. 3 shows a table of exemplary GRF terms.

In some situations, certain securities, including Treasury securities orstocks, are in short supply in the cash markets. Thus, in oneembodiment, lenders may accept below market rates to lend that securityon a short-term basis. These securities are said to go “on special.” Asshown in FIG. 4, a contract for the lending of a particular security,also referred to as a Special Collateralized Lending Facility (“SpecialCLF”) contract or Special Repo Futures (“SRF”) contract, may require aspecified or special piece of collateral to be passed from long to shortwith the provision that such specified or special collateral issubsequently returned. Because shorts are interested in securingparticular securities, cash is not transferred upon initial transaction.Short positions may be secured with general collateral equal in value tothe special collateral plus a CH-specified risk premium. Special GRFcontracts may be quoted as an interest rate differential on special vs.general collateral. FIG. 5 shows exemplary terms for SRF contracts ascompared. With GRF contracts.

Referring now to FIG. 6, there is shown a block diagram of an exemplarynetwork 600 for trading GRF contracts, including SRF contracts,according to the disclosed embodiments. The network 600 couples marketparticipants 604, 606, such as those entities 604 wishing to lend, alsoreferred to as lending entities, lenders, longs or sellers, and thoseentities 606 wishing to borrow, also referred to as borrowing entities,borrowers, shorts or buyers, with an exchange 608, such as the CME, alsoreferred to as a central counterparty or intermediary, via acommunications network 602, such as the Internet, an intranet or otherpublic or private, secured or unsecured communications network orcombinations thereof. The network 600 may also be part of, oralternatively coupled with a larger trading network, allowing marketparticipants 604 606 to trade other products, such as futures contracts,options contracts, foreign exchange instruments, etc., via the exchange608. It will be appreciated that the plurality of entities utilizing thedisclosed embodiments, e.g. the market participants 604, 606, may bereferred to as lenders, borrowers, traders, market makers or by othernomenclature reflecting the role that the particular entity isperforming with respect to the disclosed embodiments and that a givenentity may perform more than one role depending upon the implementationand the nature of the particular transaction being undertaken, as wellas the entity's contractual and/or legal relationship with anothermarket participant 604 606 and/or the exchange 608.

Herein, the phrase “coupled with” is defined to mean directly connectedto or indirectly connected through one or more intermediate components.Such intermediate components may include both hardware and softwarebased components. Further, to clarify the use in the pending claims andto hereby provide notice to the public, the phrases “at least one of<A>, <B>, . . . , and <N>” or “at least one of <A>, <B>, <N>, orcombinations thereof” are defined by the Applicant in the broadestsense, superseding any other implied definitions herebefore orhereinafter unless expressly asserted by the Applicant to the contrary,to mean one or more elements selected from the group comprising A, B, .. . and N, that is to say, any combination of one or more of theelements A, B, . . . or N including any one element alone or incombination with one or more of the other elements which may alsoinclude, in combination, additional elements not listed.

The exchange 608 provides a system 624 which implements the functions ofmatching 610 buy/sell or lending/borrowing transactions, clearing 612those transactions, settling 614 those transactions and managing risk616 among the market participants 604 606 and between the marketparticipants and the exchange 108, as well as administrationfunctionality 628 for administering loans between delivery andredemption as will be described. In an alternate embodiment, collateralmanagement 622 and/or request-for-quote functionality (not shown) ornetting functionality (not shown) may also be provided, as is discussedin more detail below. The exchange 608 may be include or be coupled withone or more database(s) 620 or other record keeping system which storesdata related to open, i.e. un-matched, orders, matched orders which havenot yet been delivered, orders, i.e. loans, which have been deliveredbut not yet redeemed, collateral tendered to secure outstanding loans,or combinations thereof.

Typically, the exchange 608 provides a “clearing house” (not shown)which is a division of the Exchange 608 through which all trades mademust be confirmed, matched and settled each day until offset ordelivered. The clearing house is an adjunct to the Exchange 608responsible for settling trading accounts, clearing trades, collectingand maintaining performance bond funds, regulating delivery andreporting trading data. Essentially mitigating credit. Clearing is theprocedure through which the Clearing House becomes buyer to each sellerof a futures contract, and seller to each buyer, also referred to as a“novation,” and assumes responsibility for protecting buyers and sellersfrom financial loss by assuring performance on each contract. This iseffected through the clearing process, whereby transactions are matched.A clearing member is a firm qualified to clear trades through theClearing House. The disclosed embodiments, place trades in GRF contractsinto the same “risk pool” as other products traded on the exchange,accordingly customers of the clearing members can enjoy the benefit ofsegregated treatment of assets at the clearing house (apart fromclearing firm assets). The latter is significant since it shields endcustomers from exposure to their clearing firm's credit risk.

In the presently disclosed embodiments, the Exchange 608 assumes anadditional role as the central counterparty in GRF or SRF transactions,i.e., the Exchange 608 will become the borrower to each lender andlender to each borrower, and assume responsibility for protectingborrowers and lenders from financial loss by assuring performance oneach contract, as is done in futures transactions. Additionally, theExchange 608 further assumes the role as administrator of the loanbetween delivery and redemption and facilitator of redemption uponexpiration of the loan, as will be described. In an alternativeembodiment, the Exchange 608 also assumes the roles as manager of thecollateral provided by the borrower to secure the loan. As used herein,the term “Exchange” 608 will refer to the centralized clearing andsettlement mechanisms, risk management systems, etc., as describedbelow, used for futures trading, including the described enhancements tofacilitate GRF or SRF transactions. By assuming this intermediary roleand employing credit screening and risk management mechanisms, partiespreviously unwilling to lend and/or borrow, due, for example, to creditrisks, may now trade anonymously with mitigated risk.

While the disclosed embodiments will be described in reference to theCME, it will be appreciated that these embodiments are applicable to anyExchange 608, including those which trade in equities and othersecurities. The CME Clearing House clears, settles and guarantees allmatched transactions in CME contracts occurring through its facilities.In addition, the CME Clearing House establishes and monitors financialrequirements for clearing members and conveys certain clearingprivileges in conjunction with the relevant exchange markets.

As an intermediary, the Exchange 608 bears a certain amount of risk ineach transaction that takes place. To that end, risk managementmechanisms protect the Exchange via the Clearing House. The ClearingHouse establishes clearing level performance bonds (margins) for all CMEproducts and establishes minimum performance bond requirements forcustomers of CME products. A performance bond, also referred to as amargin, is the funds that must be deposited by a customer with his orher broker, by a broker with a clearing member or by a clearing memberwith the Clearing House, for the purpose of insuring the broker orClearing House against loss on open futures or options contracts. Thisis not a part payment on a purchase. The performance bond helps toensure the financial integrity of brokers, clearing members and theExchange as a whole. The Performance Bond to Clearing House refers tothe minimum dollar deposit which is required by the Clearing House fromclearing members in accordance with their positions. Maintenance, ormaintenance margin, refers to a sum, usually smaller than the initialperformance bond, which must remain on deposit in the customer's accountfor any position at all times. The initial margin is the total amount ofmargin per contract required by the broker when a futures position isopened. A drop in funds below this level requires a deposit back to theinitial margin levels, i.e. a performance bond call. If a customer'sequity in any futures position drops to or under the maintenance levelbecause of adverse price action, the broker must issue a performancebond/margin call to restore the customer's equity. A performance bondcall, also referred to as a margin call, is a demand for additionalfunds to bring the customer's account back up to the initial performancebond level whenever adverse price movements cause the account to gobelow the maintenance. As will be discussed below, additionalfunctionality, in particular, collateral management functionality 622,is provided by the disclosed embodiments to provide risk management forGRE transactions.

The accounts of individual members, clearing firms and non-membercustomers doing business through CME must be carried and guaranteed tothe Clearing House by a clearing member. As mentioned above, in everymatched transaction executed through the Exchange's facilities, theClearing House is substituted as the buyer to the seller and the sellerto the buyer, with a clearing member assuming the opposite side of eachtransaction. In the disclosed embodiments, in every matched GRF or SRFtransaction executed through the Exchange's facilities, the ClearingHouse is substituted as the lender to the borrower and the borrower tothe lender, with a clearing member assuming the opposite side of eachtransaction. The Clearing House is an operating division of the Exchange608, and all rights, obligations and/or liabilities of the ClearingHouse are rights, obligations and/or liabilities of CME. Clearingmembers assume full financial and performance responsibility for alltransactions executed through them and all positions they carry. TheClearing House, dealing exclusively with clearing members, holds eachclearing member accountable for every position it carries regardless ofwhether the position is being carried for the account of an individualmember, for the account of a non-member customer, or for the clearingmember's own account. Conversely, as the contra-side to every position,the Clearing House is held accountable to the clearing members for thenet settlement from all transactions on which it has been substituted asprovided in the Rules. As will be explained below, these mechanisms willbe augmented so as to handle GRF or SRF transactions.

More information about minimizing the risk to the Exchange 608 whilesimilarly minimizing the burden on members, approximating the requisiteperformance bond or margin requirement as closely as possible to theactual positions of the account at any given time and improving theaccuracy and flexibility of the mechanisms which estimate performancebond requirements, may be found in the following U.S. patentapplications, all of which are incorporated by reference herein, whichdisclose functionality which may be further used in combination with thedisclosed embodiments:

-   -   U.S. patent application Ser. No. 11/030,815, “SYSTEM AND METHOD        FOR ACTIVITY BASED MARGINING”, (Attorney Ref. No. 4672/410),        filed Jan. 7, 2005, now U.S. Pat. No. ______;    -   U.S. patent application Ser. No. 11/030,796, “SYSTEM AND METHOD        FOR EFFICIENTLY USING COLLATERAL FOR RISK OFFSET”, (Attorney        Ref. No. 4672/417), filed Jan. 7, 2005, now U.S. Pat. No.        7,426,487;    -   U.S. patent application Ser. No. 11/030,833, “SYSTEM AND METHOD        FOR ASYMMETRIC OFFSETS IN A RISK MANAGEMENT SYSTEM”, (Attorney        Ref. No. 4672/418), filed Jan. 7, 2005, now U.S. Pat. No.        ______;    -   U.S. patent application Ser. No. 11/030,814, “SYSTEM AND METHOD        FOR DISPLAYING A COMBINED TRADING AND RISK MANAGEMENT GUI        DISPLAY”, (Attorney Ref. No. 4672/419), filed Jan. 7, 2005, now        U.S. Pat. No. ______;    -   U.S. patent application Ser. No. 11/031,182, “SYSTEM AND METHOD        FOR FLEXIBLE SPREAD PARTICIPATION”, (Attorney Ref. No.        4672/420), filed Jan. 7, 2005, now U.S. Pat. No. ______;    -   U.S. patent application Ser. No. 11/030,869, “SYSTEM AND METHOD        FOR HYBRID SPREADING FOR RISK MANAGEMENT”, (Attorney Ref. No.        4672/421), filed Jan. 7, 2005, now U.S. Pat. No. 7,428,508;    -   U.S. patent application Ser. No. 11/030,849, “SYSTEM AND METHOD        OF MARGINING FIXED PAYOFF PRODUCTS”, (Attorney Ref. No.        4672/507), filed Jan. 7, 2005, now U.S. Pat. No. 7,430,539;    -   U.S. patent application Ser. No. 11/590,540, filed Oct. 31,        2007, entitled SYSTEM AND METHOD FOR CENTRALIZED CLEARING OF        OVER THE COUNTER FOREIGN EXCHANGE INSTRUMENTS (Attorney Docket        No. 4672/552), now U.S. Pat. No. ______;    -   U.S. patent application Ser. No. 11/452,653, filed Jun. 14,        2006, entitled SYSTEM AND METHOD FOR DIRECTED REQUEST FOR QUOTE        (Attorney Docket No. 4672/555), now U.S. Pat. No. ______;    -   U.S. patent application Ser. No. 11/452, 673, filed Jun. 14,        2006, entitled HYBRID CROSS MARGINING (Attorney Docket No.        4672/567), now U.S. Pat. No. ______;    -   U.S. patent application Ser. No. 11/601,489, filed Nov. 17,        2006, entitled DETECTION OF INTRA-FIRM MATCHING AND RESPONSE        THERETO (Attorney Docket No. 4672/572), now U.S. Pat. No.        ______;    -   U.S. patent application Ser. No. 11/600,984, filed Nov. 17,        2006, entitled MULTIPLE QUOTE RISK MANAGEMENT (Attorney Docket        No. 4672/573), now U.S. Pat. No. ______; and    -   U.S. patent application Ser. No. 11/600,993, filed Nov. 17,        2006, entitled CROSS-CURRENCY IMPLIED SPREADS (Attorney Docket        No. 4672/594), now U.S. Pat. No. ______.

As discussed above, by acting as an intermediary between marketparticipants 604/606 for the transaction of GRF or SRF instruments, theExchange 608 obviates many of the requirements of a bilateral system oflending. In particular, the Exchange 608 novates itself into thetransactions between the market participants, i.e. splits a giventransaction between the parties into two separate transactions where theExchange 608 substitutes itself as the counterparty to each of theparties for that part of the transaction, sometimes referred to as anovation. In this way, the Exchange 608 acts as a guarantor and centralcounterparty and there is no need for the market participants 604/606 todisclose their identities or subject themselves to credit checks orother investigations by a potential counterparty. Further, there is noneed for a lender to collect collateral from a borrower to secure a loanas the Exchange 608, as will be described, guarantees the loan to thelender, utilizing its own risk management mechanisms to secure the loanbetween the Exchange 608 and the borrower, thereby allowing the borrowermore flexibility with respect to the collateral provided. For example,the Exchange 608 insulates one market participant 604/606 from thedefault by another market participant 604/606. Market participants604/606 need only meet the requirements of the Exchange 608. Anonymityamong the market participants 604/606 encourages a more liquid marketenvironment as there are lower barriers to participation whilecentralized performance guarantees and collateral management increasethe availability of credit.

In addition, by acting as an intermediary, the Exchange 608 is able toprovide additional functionality that may not be available in bilaterallending situations. In one embodiment, the Exchange 608 providescollateral management functionality allowing a borrower to providevarious types of collateral, subject to haircuts as will be discussed,substitute collateral during the term of a loan, utilizing excess marginto satisfy collateral requirements, or combinations thereof.

In one embodiment, the system 624 provided by the Exchange 608 forimplementing GRE or SRF transactions includes order receivingfunctionality 626, matching functionality 610 coupled with the orderreceiving functionality 626, as well as settlement 614, clearing 612,risk management 616 functionality and an account database 620 coupledtherewith. Further loan administration 628 and collateral management 622functionality coupled with the risk management functionality 616 mayalso be provided.

It will be appreciated that the functionality of the Exchange 608,including the order receiving 626, matching 610, clearing 612,settlement 614 and risk management 616 functionality, as well as theloan administration 628 and collateral management 622 functionality, maybe implemented in hardware, software or a combination thereof. In oneembodiment, the disclosed functionality is implemented entirely inhardware. In particular, the exchange 608 may provide an order receivingprocessor 626, matching processor 610, clearing processor 612,settlement processor 614, risk processor 616, loan administrationprocessor 628 and/or collateral management processor 622 to implementthe disclosed functionality. Further, this functionality may beimplemented in logic or computer program code stored in a memory andexecutable by one or more specialized or general purpose processorswhich may be directly or indirectly connected, such as via a network.The disclosed account database 620 may include one or more databases orother record keeping systems implemented on one or more storage devicesor memories, such as magnetic, optical or electrical based storagedevices or memories which are configured to store data representative oftransactions processed by the exchange 608, including cash or otherassets tendered or otherwise delivered, physically or electronically, tothe exchange 608 by the lenders, cash or other assets delivered,physically or electronically, by the exchange 608 to the borrowers, cashor other assets returned, physically or electronically, by the exchange608 to the lenders, collateral delivered, physically or electronically,to the exchange 608 by the borrowers, collateral returned, physically orelectronically, by the exchange 608 to the borrowers, changes in valueof collateral held by the exchange 608, fees/interest charges orcombinations thereof.

The disclosed embodiments, which, as described, may be implemented in acomputer, facilitate, by an intermediary, the lending of an asset. Inone embodiment, the intermediary is an Exchange 608, such as the CME.The asset may be cash, one or more securities or other assets orcombinations thereof. In one embodiment, the asset is a particularsecurity such as a fixed income or equity security. Depending upon theimplementation and/or the type of asset, the asset borrowed may be asubstantial equivalent of the asset which is lent. For example, aborrower may not receive that actual cash provided to the Exchange 608by the lender but, instead, receives a substantial equivalent thereof,i.e. cash of equal value. It will be appreciated that othersubstitutions of assets, or portions thereof, may be utilized, wherebysubstantial equivalence, e.g. the transactional goal of the transactingentities, is met, and, as such, is implementation dependent. It will beappreciated that asset equivalence may be defined by the Exchange 608,market participants 604, 606, governmental or regulatory authority, orcombinations thereof. Further, in cases where a single borrower wishesto borrow more than a single lender is willing to lend, the borrower'stransaction may be matched, as will be described, with more than onelending transaction, thereby a given lender may only lend a portion ofthe asset being borrowed. In an alternate embodiment, the Exchange 608may permit a single lending transaction to match against multipleborrowing transactions, thereby the borrower only borrowing a portion ofthe asset being lent. Various combinations of transactions may befurther supported.

In one embodiment, the system 624 includes one or more processors, suchas processors 610, 612, 614, 616, 622, 626, 628, and may further includeone or more network interfaces (not shown) and one more memory and/orstorage devices/media (not shown), herein referred to as memory, coupledwith the processor(s). The processor(s) may include any general orspecial purpose computer processor as is known and may be operative,such as via, first logic, e.g. computer program logic, stored in thememory and executable by the processor(s), to receive, such as via thenetwork interface(s), from a first entity of a plurality of entities, afirst request or order for a first loan transaction relating to a loanof the asset for a specified duration. In one embodiment, the firstentity may be different from the intermediary. The first transaction maybe a borrowing or lending transaction. The first request may include arequest or order to trade a long GRF or SRF contract or otherwise lendan asset or a portion thereof, or the first request may include arequest or order to trade a short GRF or SRF contract or otherwiseborrow an asset or a portion thereof. It will be appreciated that arequest to lend or otherwise trade in a long GRF or SRF contract may beconsidered or treated like a sell transaction as the first entity maydeliver the asset, or portion thereof, to be lent to the exchange 608 inreturn for a claim against the exchange 608 plus interest, etc., to bepaid back at the end of the loan. Similarly, a request to borrow orotherwise trade in a short GRF or SRF contract may be considered ortreated like a buy transaction. The first request may specify theparameters of the GRF or SRF contract which the first entity desires totrade, such as an amount or specification of an asset to be lent,interest rate or other fees, delivery date, i.e. when will the asset bedelivered and the loan term commence, the duration, or expiration date,of the loan, or combinations thereof. One or more of these parametersmay be standardized, i.e. the first entity specifies the type ofcontract they wish to trade selected from a pre-defined set of availablecontract types, defined, for example, by the exchange 608. Exemplaryparameters of available contract types are shown in FIGS. 3 and 5. Otherparameters may be defined and are implementation dependent. Further, oneor more of the parameters may be variable or otherwise configurable bythe first entity, constrained to certain values or ranges orunconstrained, such as the quantity of the asset, the interest rate, orother parameters or combinations thereof, in one embodiment, GRF or SRFcontracts are tradeable in $100,000 increments.

In particular, the specification of a delivery date permits the forwardtrading of GRF or SRF contracts, e.g. the delivery can be specified fora date subsequent to the date on which the transaction request issubmitted to the exchange 608 and/or matched by the exchange 608 as willbe described. This permits transacting entities to transact in “forward”loans. As used herein, the “trade date” refers to the date on which anorder or request to transact is submitted to the exchange 608 and/ormatched with a counter order/request by the matching functionality 610of the exchange 608. The settlement or delivery date is the date onwhich asset, or portion thereof, to be lent is tendered by the lendingentity to the exchange 608 and on which the asset, or portion thereof,or the substantial equivalent thereof is delivered by the exchange 608to the borrowing entity. In one embodiment, the settlement or deliverydate may exclusively refer to the delivery to the borrower independentof the tender by the lender as the delivery to the borrower may beguaranteed independent of the performance by the lender. The settlementor delivery date is also the date on which the loan commences. The loanthen runs for a specified term or duration. The redemption date is thedate on which the duration or term expires and the loan is to be paidback to the exchange 608 and ultimately to the lender. Accordingly, thesettlement/delivery date can occur subsequent to the trade date, such aszero to seven days after.

The processor(s) may be further operative, such as via second logicstored in the memory(s), coupled with the first logic, and executable bythe processor(s), to identify a second request or order received by theExchange 608 from a second entity of the plurality of entities for asecond loan transaction at least partially counter to the first loantransaction and to match, such as via third logic stored in the memory,coupled with the second logic and executable by the processor, the firstrequest with the second request, the second entity being different fromthe intermediary. Requests or orders to lend are matched with requestsor orders to borrow, etc.

In particular, the request for a first transaction is matched with arequest for a second transaction that was previously received but,itself, not matched with another request at the time of receipt.Unmatched requests are placed in a queue or other data structure,referred to sometimes as an “order book,” which may be maintained in thedatabase 620. An unmatched request, also referred to as an open order,is said to be “resting” in the order book. Matching is the process oflocating another request/order at least partially counter to the presentorder. For example, if the request for a first transaction is to borrowa particular asset for particular terms, a counter transaction would arequest to lend the particular asset, or a portion thereof; for thesame, or substantially equivalent terms. It will be appreciated that therules governing what constitutes a transaction and counter transaction,i.e. what constitutes a match, may be implementation dependent and maybe defined by the exchange 608, market participants 604, 606 and/orgovernmental or regulatory organizations, or combinations thereof. Ifthe exchange 608 is unable to match the first request with a suitablesecond request, the first request is added to the order book to await asubsequent suitable transaction request at least partially counterthereto. At any given moment, there may be multiple orders/transactionrequests resting in the order book, some of which may be similar,varying for example, by interest rate, term, delivery, or otherparameter values, or combinations thereof. Further, transacting entitiesmay withdraw their transaction requests prior to matching and/or submitnew requests with different parameters. It is the presence of competingtransactions requests and the ability to withdraw and submit newrequests which facilitates creation of a market.

The processor(s) may be further operative, such as via fourth logicstored in the memory(s), coupled with the third logic and executable bythe processor(s), to facilitate, based on the match, the first andsecond loan transactions, without identifying the first and secondentities to each other, to effect a delivery of at least a portion theasset or a substantial equivalent thereof from one of the first andsecond entities to the other of the first and second entities, i.e. fromthe lender to the borrower via the intermediary. As was described, theprocessor(s) may be further operative to novate the first and secondtransactions, i.e. substitute the intermediary, e.g. the Exchange 608,for the second entity in the first loan transaction and substitute theintermediary, e.g. the Exchange 608, for the first entity in the secondloan transaction. Accordingly, the processor(s) may be operative, suchas via further execution the fourth logic, to perform the first loantransaction between the first entity and the intermediary and performthe second loan transaction between the second entity and theintermediary, whereby the performance of the first loan transaction isindependent of the performance of the second loan transaction. In thisway, the transactions are anonymized with respect to the first andsecond entities and performance of each transaction is guaranteed by theintermediary.

Further, as was described, where the entities are transacting for aforward transaction, the processor(s) may be further operative tofacilitate the first and second loan transactions at a date subsequentto the occurrence of the matching. In this case, the matchedtransactions are maintained in a database 620, coupled with the exchange608, to be executed on the delivery date as described above. In oneembodiment, the delivery of the at least a portion of the asset mayinclude one of a transfer of the at least a portion of the asset or aprovision of a substantial equivalent thereof between one, e.g. thelending entity, of the first and second entities and the other, e.g. theborrowing entity, of the first and second entities, the transfer takingplace between the lending entity and the Exchange and between theExchange and the borrowing entity.

In one embodiment, one of the first and second entities may transactwith a third entity between when the processor(s) matches the first andsecond requests and when the processor(s) facilitates the first andsecond loan transactions to substitute the third entity for the one ofthe first and second entities. This may permit an entity to sell orotherwise trade its position to another entity. Similarly, entities maybe permitted to transact with third parties subsequent to delivery butprior to redemption.

The processor(s) may be further operative, such as via fifth logicstored in the memory(s), coupled with the fourth logic and executable bythe processor(s), to facilitate redemption of the at least a portion ofthe asset or substantial equivalent thereof upon expiration of theduration, e.g. at the end of the loan, in particular, the processor(s)may be operative, such as via further execution of the fifth logic, toperform a third transaction substantially counter to the first loantransaction between the first entity and the intermediary and a fourthtransaction substantially counter to the second loan transaction betweenthe second entity and the intermediary, whereby the performance of thethird transaction is independent of the performance of the fourthtransaction. Effectively, the intermediary, e.g. the Exchange 608reverses the first and second transactions to collect on the loan fromthe borrowing entity and repay the lending entity. In one embodiment,one of the third and fourth transactions may include collection of afee, such as interest, a transaction fee, or combination thereof, inaddition to the at least a portion of the asset from one of the firstand second entities, and the other of the third and fourth transactionsmay comprise payment of the fee to the other of the first and secondentities. Transaction fees charged by the exchange 608 may be deductedfrom the collected fees prior to payment to the lending entity. The feemay be computed based at least on the specified duration, as well asother factors, such as the amount of the loan, the delay betweenmatching and delivery, etc.

As can be seen, the intermediary, e.g. the exchange 608, must not onlyadminister the requisite transactions between the trade and deliverydates, as is done with typical futures contracts, but must furtheradminister the loan during the term and facilitate redemption thereof, afunction not required of an exchange 608 when transacting in typicalfutures contracts, administration of which typically ends at delivery.In particular the exchange 608 may include loan administrationfunctionality 628, implemented as a loan administration processor 628 orcomputer program logic stored in the memory and executable by one ormore processors, which administers the loans subsequent to delivery. Inone embodiment, the loan administration functionality 628 may beimplemented by the processor(s) described above wherein the processor(s)may be further operative, such as via additional logic stored in thememory and executable by the processor(s), to, subsequent to thedelivery of the at least a portion the asset or the substantialequivalent thereof from the one of the first and second entities to theother of the first and second entities, maintain a record of the firstand second transactions at least until the expiration of the duration.Records of the transactions may be maintained in a database 620 coupledwith the exchange 608 and utilized to track the loan and facilitateredemption at the expiration thereof. As there may be multiple loanshaving varying delivery dates, interest rates, redemption dates, etc. atany given time, the database 620 may facilitate tracking and redemptionof loans as they are delivered and as they expire.

As was described above, the exchange 608, via the clearing house,employs risk management functionality so as to mitigate risk of loss inthe transactions to which it is a party through novation. For example,traders are required to post performance bonds to meet marginrequirements to cover potential losses in their portfolios. In oneembodiment, with respect to GRF or SRF contracts, the exchange 608mitigates loss by requiring borrowing entities to provide collateral tothe exchange 608 to secure their loan. The collateral is returned at thetime the loan expires and the borrower redeems the loan, i.e. pays itback. Exemplary acceptable collateral is shown in Table 1 below.

Physical delivery into an expiring GRE or SRF contract results in thecreation of what is essentially a tri-party collateralized loanagreement, with 3rd party custody arrangements administered by theexchange 608. In one embodiment, any collateral that the exchangecurrently accepts to secure performance bonds may also be accepted ascollateral, and referred to as “contract grade.”

TABLE 1 Exemplary Acceptable Collateral and Applicable Haircut Cash USDollar No haircut Australian dollar, British pound, 3% Canadian dollar,Euro, New Zealand dollar, Norwegian krone, Swedish krona, Swiss francJapanese yen 5% Mexican peso 15%  Selected Sovereign debt of Canada,France, Germany, Sweden, United Kingdom Discount bills 3% 0-5 years5.5%   5-10 years 7% 10-30 years 8.5%   >30 years US Treasuries USTreasury bills No haircut US Treasury bonds & notes 0-5 years 2% USTreasury bonds & notes 5-10 years 3.5%   US Treasury bonds & notes 10-30years 5% If security is off-the-run 0.5% added US Treasury strips(principal & coupon) 10%  US Government Agencies - Limited tocombination of letters of credit and government agencies of no more than50% of clearing member's core performance bond requirement in excess of$5 million. This restriction does not apply to the clearing firm'sreserve performance bond or concentration requirements. Discount notes(with remaining maturity 3% with 0.5% added of no more than 12 months)issued by if security is off Federal Farm Credit Banks, Federal HomeLoan the run Bank System, Federal Home Loan Mortgage Corp. and FederalNational Mortgage Assoc. Callable and Non-callable Fannie Mae 3% with0.5% added Benchmark Bills; Callable and Non-callable if security is offFreddie Mac Reference Bills; Callable and the run Non-callable FederalHome Loan Bank Bills; Callable and Non-callable Federal Farm Credit BankBills Callable and Non-callable Fannie Mae 0-5 years: 3% Benchmark Notesand Bonds; Callable and 5-10 years: 4.5% Non-callable Freddie MacReference Notes 10+ years: 6% and Bonds; Callable and Non-callable 0.5%if off Federal Home Loan Bank Notes and Bonds; the run Callable andNon-callable Federal Farm Credit Bank Notes and Bonds Select MortgageBacked Securities (MBS) 10%  The above Haircut Schedule is exemplaryonly and representative of applicable haircut values as of Dec. 19,2008. It will be appreciated that haircut values are regularly subjectto change at the discretion of the clearing house, including, but notlimited to, adjustments to haircut levels and acceptable collateral..

Acceptable collateral may comprise exempt securities, such asTreasuries, as well as cash (denominated either in U.S. dollars or inforeign currencies, foreign sovereign debt, securities issued by U.S.government sponsored enterprises, and various asset backed securities,all subject to haircuts described herein. As further means of managingrisk exposure, the exchange 608 may subject this collateral to a dailymark-to-market process. Importantly, contract grade collateral mayexclude use of particular securities or instruments as may be specifiedby the Exchange, e.g., lEE programs, Letters of Credit (LCs), or equitysecurities.

Note that, in standard repo markets, different interest rates may beoffered depending upon the type of collateral used to secure the loan.Thus, higher loan rates may be associated with agencies vs. Treasuries;or, with MBS over agencies. The exchange 608 of the disclosedembodiments utilizes an altogether different model by essentiallyhomogenizing different types of collateral through the application of ahaircut, i.e. an adjustment to the value accorded to the collateral insatisfaction of the collateral requirement. This may have the effect ofcoalescing loan activity behind a single collateral management systemrather than fragmenting liquidity amongst repos collateralized withdivergent types of collateral.

In particular, the exchange 608 may include collateral managementfunctionality 622, as a part, or independent, of the risk managementfunctionality 616, which evaluates loan transactions, sets collateralrequirements, facilitates collection of collateral in satisfactionthereof and return of collateral at redemption. As collateral is managedcentrally by the Exchange 608, lending parties need not worry aboutcollecting or holding collateral or subsequently returning thecollateral, or the substantial equivalent thereof, at the end of theloan, thereby significantly reducing related transaction costs to thelending entities. Further, risk of loss due to changes in the value ofthe collateral are avoided by the lending entity. In one embodiment, thecollateral management functionality 622 may be implemented by theprocessor(s) described above wherein the processor(s) is furtheroperative to, via additional logic stored in the memory(s) andexecutable by the processor(s) facilitate receipt of first collateral bythe intermediary, e.g. the exchange 608 and/or clearing house associatedtherewith, from one of the first and second entities in exchange for thedelivery of the at least a portion of the asset or the substantialequivalent thereof. Exemplary collateral is described above. Theprocessor(s) may be further operative to facilitate the exchange's 608holding of the collateral for the term of the loan and the return of thecollateral upon redemption, such as by storing records relating to thecollateral in a database coupled with the processor(s). In oneembodiment, during the term of the loan, the borrowing entity may bepermitted to substitute different collateral for collateral previouslyprovided. In bilateral arrangements, such substitution would bedifficult and involve significant transaction costs. In the disclosedembodiments, the processor(s) may further operative to facilitatereceipt, by the intermediary from the one of the first and secondentities, second collateral in exchange for the first collateral withoutnotifying an other of the first and second entities. The intermediary,e.g. exchange 608, further insulates the lending entities from valuefluctuations in the collateral provided by the borrower. In particular,if the value of the collateral should change during the term of theloan, e.g. diminish, the lender is insulated by the intermediary'sguarantee of the transaction. Further, to protect itself from risk ofloss, the intermediary may seek additional collateral to make up for theshortfall in value. The lending entity, thereby is not at risk shouldthe borrower default, as the intermediary guarantees repayment to thelending entity, absorbing the risk of default and risk that thecollateral may not cover the loss. In addition, the processor(s) may befurther operative to homogenize different collateral types, as wasdescribed, by computing an amount of collateral required by theintermediary in exchange for the delivery, the first collateral beingreceived in satisfaction thereof, evaluating a risk of the firstcollateral changing in value, adjusting the amount by which the firstcollateral satisfies the amount of collateral required based on theevaluation and applying the adjusted amount towards satisfaction of theamount of collateral required, and identifying the amount of collateralrequired which remains unsatisfied. In particular, the collateralmanagement functionality may employ similar risk management techniquesused to evaluate risk of loss in a portfolio, to evaluate risk of lossin a loan transaction based on the collateral provided. The disclosedembodiments may evaluate the quality of the collateral, e.g. the riskthat the collateral may change, or has changed, in value and, inparticular, lose, or has lost, value. That evaluation may then be usedto apply a haircut to the value of the collateral, i.e. to adjust theamount of credit that will be given for the collateral towardssatisfaction of the collateral requirement. Where the collateral is oflow quality, e.g. high risk of loss, the value may be substantiallydiscounted when applying it towards satisfaction of the collateralrequirement, thereby requiring the borrower to provide additionalcollateral to make up for the deficiency. Thereby, the intermediary,e.g. the Exchange 608, mitigates risk of loss due to default whilewidening the types of collateral available for use. It will beappreciated that the collateral may be evaluated upon receipt, i.e. atdelivery of the loan, as well as periodically thereafter, such as daily,weekly or monthly, and its value adjusted. Should the value diminish,such as during the term of the loan, the borrowing entity may berequired to furnish additional collateral to make up for the shortfall,e.g. similar to a margin call. If the value should increase, the excesscollateral may be returned to the borrower. The timing of theevaluations and adjustments, in addition to the response to diminishedor increased collateral value, is implementation dependent.

FIG. 7 shows a flow chart detailing exemplary operation of the exchange608 shown in FIG. 6. In one embodiment, the above described systemimplements a method of facilitating lending an asset. The methodincludes receiving, by a processor operated by an intermediary, from afirst entity of a plurality of entities a first request for a first loantransaction relating to a loan of the asset for a specified duration,the first entity being different from the intermediary (Block 702). Theasset may comprise one of cash or a security, or other asset orcombination thereof. One of the first and second loan transactions maycomprise a lending of at least a portion of the asset and the other ofthe first and second loan transactions may comprise a borrowing of atleast a portion of the asset. The method further includes identifying,by the processor, a second request received by the processor from asecond entity of the plurality of entities for a second loan transactionat least partially counter to the first loan transaction, the secondentity being different from the intermediary (Block 704) and matching,by the processor, the first request with the second request (Block 706).As described, the matching involves a novation, i.e. the matchingfurther comprises substituting the intermediary for the second entity inthe first loan transaction and substituting the intermediary for thefirst entity in the second loan transaction.

The method further includes facilitating, by the processor based on thematching, the first and second loan transactions without identifying thefirst and second entities to each other to effect a delivery of at leasta portion the asset or a substantial equivalent thereof from one of thefirst and second entities to the other of the first and second entities(Block 708), wherein the facilitating of the first and second loantransactions further comprises: performing the first loan transactionbetween the first entity and the intermediary (Block 710) and performingthe second loan transaction between the second entity and theintermediary (712), whereby the performance of the first loantransaction is independent of the performance of the second loantransaction. The delivery of the at least a portion of the asset maycomprise one of a transfer of the at least a portion of the asset or aprovision of a substantial equivalent thereof between one of the firstand second entities and the other of the first and second entities.Further, the facilitating of the first and second loan transactions mayoccur at a date subsequent to the occurrence of the matching.

The method further includes facilitating, by the processor, redemptionof the at least a portion of the asset or substantial equivalent thereofupon expiration of the duration (Block 714), where the facilitating ofthe redemption includes performing a third transaction substantiallycounter to the first loan transaction between the first entity and theintermediary (Block 716) and performing a fourth transactionsubstantially counter to the second loan transaction between the secondentity and the intermediary (Block 718), whereby the performance of thethird transaction is independent of the performance of the fourthtransaction. Subsequent to the delivery of the at least a portion theasset or the substantial equivalent thereof from the one of the firstand second entities to the other of the first and second entities, themethod may further include administering the loan such as by maintaininga record of the first and second transactions at least until theexpiration of the duration. In addition, one of the third and fourthtransactions comprises collecting a fee, such as interest and/or atransaction fee in addition to the at least a portion of the asset fromone of the first and second entities and the other of the third andfourth transactions may comprise paying the fee to the other of thefirst and second entities. The fee may be computed based at least on thespecified duration of the loan. In an alternate embodiment, one of thefirst and second entities may transact with a third entity between thematching and the facilitating of the first and second loan transactionsto substitute the third entity for the one of the first and secondentities.

The method may further include management of collateral such as whereinthe facilitating of the first and second loan transactions further maycomprise receiving first collateral by the intermediary from one of thefirst and second entities in exchange for the delivery of the at least aportion of the asset or the substantial equivalent thereof. The firstcollateral may comprise one of cash or a security or other asset orcombination thereof. The first collateral may be held by theintermediary and at least a portion of the first collateral may bereturned upon redemption of the asset or the substantial equivalentthereof. In an alternate embodiment, the method may further includereceiving, by the intermediary from the one of the first and secondentities, second collateral in exchange for the first collateral withoutnotifying an other of the first and second entities. The value of thefirst collateral may vary, the independence of the third and fourthtransactions being unaffected thereby. The method may further includecomputing an amount of collateral required by the intermediary inexchange for the delivery, the first collateral being received insatisfaction thereof, evaluating a risk of the first collateral changingin value, adjusting the amount by which the first collateral satisfiesthe amount of collateral required based on the evaluating and applyingthe adjusted amount towards satisfaction of the amount of collateralrequired, and identifying the amount of collateral required whichremains unsatisfied. The evaluation and adjustment, which may be done atdelivery and/or periodically thereafter, may be used to compensate forthe quality of the collateral, e.g. the risk that the collateral maydiminish, or has diminished, in value prior to redemption.

As has been described, the General Repo Futures (GRP) contract offersthe following refinements relative to financing through an option boxspread:

-   -   Quotation—GRFs may be quoted in terms of an interest rate rather        than in terms of the net option premium paid or received by        buying or selling the box option spread respectively. One may        impute the interest rate associated with a box but a direct        quotation in terms of an interest rate is more useful. The        interest, according to the rate, may be paid at the end date of        the GRF contract.    -   Precision—GRFs may be quoted in terms of an interest rate to the        nearest one-half basis point (0.00005%) change in yield or such        other interval as determined by the Exchange. This may be        distinguished from an option box spread which is quoted (again)        as the net premium associated with the four options associated        with the trade. One will find that by changing the value of one        of the four legs of the option box spread, that the resulting        changing in the implicit yield may be much higher than one-half        basis point. i.e., it is imprecise and does not allow the user        to alter the implicit interest in fine increments.    -   Efficiency—An option box spread entails the trade of four (4)        different options. One may “leg-into” each of those four legs        individually. Or, one may attempt to find a market maker who        will quote a unified price for all four leas of the option box        spread. Either way, the trader is responsible for fees and        charges associated with trading four separate contracts to        accomplish one purpose. It is much more efficient to accomplish        the same purpose, i.e., delivery of a secured loan through a GRF        which entails one leg instead of four.    -   Term of Delivered Loan—GRFs may result in the delivery of a        secured loan of varied terms depending upon how one elects to        configure the contracts. i.e., an overnight (O/N) loan, 2-days,        3-days, 7-days, 14-days, etc., etc. The implicit term of an        option box is the maturity date of the four options that        constitute the trade. While CME offers “flex options” with terms        that may be determined mutually by the two parties to the        transaction, one must go hunting for a willing counterparty to        the trade. GRFs may be offered or listed to result in the        delivery of secured loans with terms that are believed will be        most convenient for borrowers rather than terms that are most        practicable for option traders.    -   Extension of Model—“General Repo Futures” (GRFs) convey a        secured loan of cash upon delivery. However, “Special Repo        Futures” (SRFs) may be offered as well. SRFs convey the loan of        a particular piece of collateral upon delivery against the        futures contract (i.e., a security such as a Treasury note or        bond, agency security, MBS or possibly even an equity) which is        borrowed and secured with some “general” collateral (i.e., any        old security). (Note that particular securities that are in        great demand often go “on special” in the repo markets and        borrowers become sufficiently eager to hold such        securities—possibly to make good on a short position against        which they may have to deliver—that they will offer enticing        terms to borrow those securities.) This cannot be accomplished        with an option box spread which is limited to the        lending/borrowing of cash not securities.

GRFs and SRFs are a futures contracts that call for the delivery of aninstrument underlying a futures contract that is administered by theExchange Clearing House throughout the life of the loan. Note that CMEroutinely administers the delivery of the underlying instrumentsassociated with a futures contract. E.g., foreign currencies, grain,livestock, etc. However, for these instruments, the role of the ClearingHouse ceases upon delivery. GRFs differ because the Clearing Housecontinues to administer the underlying instrument or loan from itsinitial delivery through to its eventual maturity.

It will be appreciated that other functionality may be provided such asrequest-for-quote functionality with permits a borrower to requestnon-binding quotes for particular lending transactions, such as a quotefor an interest rate. Further lenders may be able to request non-bindingquotes to determine demand for a loan, such as for a particular asset.In response to receiving a non-binding quote, the requestor may thenchoose to submit a binding trade request as described above. Further,netting of positions may be permitted, where by a market participant,604/606 may be permitted to net offsetting positions, such asoutstanding lending and borrowing transactions, and/or other positionssuch as futures positions, so as to reduce margin and/or collateralrequirements.

It is therefore intended that the foregoing detailed description beregarded as illustrative rather than limiting, and that it be understoodthat it is the following claims, including all equivalents, that areintended to define the spirit and scope of this invention.

1.-20. (canceled)
 21. An apparatus, comprising: a communications deviceconfigured to: receive a first request for a first loan transactionrelating to a loan of an asset for a specified duration, the first loantransaction including a long or a short Special Repo Futures (SRF)contract where a supply of the asset is below a supply threshold,otherwise the first loan transaction including a long or a short GeneralRepo Futures (GRF) contract, wherein the GRF contract includes a longposition paying a notional value in cash and a short position securingborrowing by posting a general collateral equal in value to the notionalvalue, wherein the first request is from a first entity; and receive asecond request for a second loan transaction at least partially counterto the first loan transaction, wherein the second request is from asecond entity; a matching device communicatively coupled to thecommunications device, the matching device configured to match the firstrequest with the second request; and a trader device communicativelycoupled to the matching device, the trader device configured to: performthe first loan transaction between the first entity and an intermediary;and perform the second loan transaction between the second entity andthe intermediary.
 22. The apparatus of claim 21, wherein one of thefirst and the second loan transactions comprises a lending of at least aportion of the asset and wherein the other of the first and the secondloan transactions comprises a borrowing of at least a portion of theasset.
 23. The apparatus of claim 21, wherein the general collateralcomprises one of cash or a security.
 24. The apparatus of claim 21,wherein the general collateral is held by the intermediary.
 25. Theapparatus of claim 21, wherein the general collateral is a firstcollateral, and wherein the first collateral is exchanged for a secondcollateral without notifying the first and the second entities.
 26. Theapparatus of claim 21, wherein the first and the second loadtransactions each include a fee, the fee based on the specifiedduration.
 27. The apparatus of claim 26, wherein the trader device isfurther configured to swap out the intermediary.
 28. A system,comprising: a communications circuit configured to: receive a firstrequest for a first loan transaction relating to a loan of an asset, thefirst loan transaction including a long or a short Special Repo Futures(SRF) contract where a supply of the asset is below a supply threshold,otherwise the first loan transaction including a long or a short GeneralRepo Futures (GRF) contract, wherein the GRF contract includes a longposition paying a notional value in cash and a short position securingborrowing by posting a general collateral equal in value to the notionalvalue, wherein the first request is from a first entity; and receive asecond request for a second loan transaction at least partially counterto the first loan transaction, wherein the second request is from asecond entity; a matching circuit communicatively coupled to thecommunications circuit, the matching circuit configured to match thefirst request with the second request; and a trader circuitcommunicatively coupled to the matching circuit, the trader circuitconfigured to: perform the first loan transaction between the firstentity and an intermediary; and perform the second loan transactionbetween the second entity and the intermediary.
 29. The system of claim28, wherein one of the first and the second loan transactions comprisesa lending of at least a portion of the asset and wherein the other ofthe first and the second loan transactions comprises a borrowing of atleast a portion of the asset.
 30. The system of claim 28, wherein thegeneral collateral comprises one of cash or a security.
 31. The systemof claim 28, wherein the general collateral is held by the intermediary.32. The system of claim 28, wherein the general collateral is a firstcollateral, and wherein the first collateral is exchanged for a secondcollateral without notifying the first and the second entities.
 33. Thesystem of claim 28, wherein the first and the second load transactionseach include a respective specified duration and a fee based on thespecified durations.
 34. The system of claim 28, wherein the tradercircuit is further configured to swap out the intermediary.
 35. Anon-transitory computer readable medium, comprising: first instructionsexecutable by a processing device to receive a first request for a firstloan transaction relating to a loan of an asset, the first loantransaction including a long or a short Special Repo Futures (SRF)contract where a supply of the asset is below a supply threshold,otherwise the first loan transaction including a long or a short GeneralRepo Futures (GRF) contract, wherein the GRF contract includes a longposition paying a notional value in cash and a short position securingborrowing by posting a general collateral equal in value to the notionalvalue, wherein the first request is from a first entity; secondinstructions executable by a processing device to receive a secondrequest for a second loan transaction at least partially counter to thefirst loan transaction, wherein the second request is from a secondentity; third instructions executable by a processing device to matchthe first request with the second request; and fourth instructionsexecutable by a processing device to perform the first and the secondloan transactions between the first and the second entities.
 36. Thenon-transitory computer readable medium of claim 35, wherein one of thefirst and the second loan transactions comprises a lending of at least aportion of the asset and wherein the other of the first and the secondloan transactions comprises a borrowing of at least a portion of theasset.
 37. The non-transitory computer readable medium of claim 35,wherein the general collateral comprises one of cash or a security. 38.The non-transitory computer readable medium of claim 35, wherein thegeneral collateral is a first collateral, and wherein the firstcollateral is exchanged for a second collateral without notifying thefirst and the second entities.
 39. The non-transitory computer readablemedium of claim 35, wherein the first and the second load transactionseach include a respective specified duration.
 40. The non-transitorycomputer readable medium of claim 39, wherein a fee is based on thespecified durations.